Precision said the benefits could become obvious: more electrodes mean more data. The company’s Layer 7 Cortical Interface includes a thin, flat, flexible film containing 1,024 electrodes.

Elon Musk's Neuralink has successfully implanted a wireless brain chip in a paralyzed patient, Noland Arbaugh, enabling him to control digital devices with his thoughts. Arbaugh, paralyzed since 2016, ...

Stanford researchers have developed a brain-computer interface that decodes inner speech with a unique password-protection ...

Precision Neuroscience, a specialist in brain-computer interfaces, has laid claim to a new record for the number of surgically-inserted electrodes in a human brain. At 4,096 electrodes, Precision ...

Scientists decoded inner speech from brain signals, enabling password-activated BCIs for faster, easier communication.

With brain-computer interfaces, people with physical disabilities could one day control computers with just their thoughts, according to the co-founders of Precision Neuroscience. The company is ...

These features, recorded from a single electrode pair over the sensorimotor cortex, were converted into click commands for spelling and into a call-caregiver signal. 3,9 At-home use of the brain ...

Since 2006, demonstrations of brain-computer interfaces in humans have primarily focused on restoring arm and hand movements by enabling people to control computer cursors or robotic arms ...

Brain-computer interfaces translate neural signals into actions, revolutionizing healthcare and enhancing communication for individuals with disabilities.

Brain-computer interfaces (BCIs), also known as brain-machine interfaces (BMIs), are neurotechnology that enables a person to control external devices with thoughts of intended actions.

The chip developed by the Swiss group has some 11,011 electrodes packed into a CMOS chip with area less than 2x2mm. At 3,150 electrodes per square millimeter, that's a higher density than anything ...

A new brain-computer interface (BCI) developed at UC Davis Health translates brain signals into speech with up to 97% accuracy — the most accurate system of its kind. The researchers implanted sensors ...